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Single-particle structure of 29Mg on the approach to the N=20 island of inversion

  • Macgregor, Patrick Thomas
Publication Date
Jan 18, 2022
Manchester eScholar
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The nuclear structure of 29Mg was probed using the d(28Mg,p)29Mg transfer reaction to populate its single-particle states. The ISOLDE facility at CERN provided a 9.473⋠A beam of 28Mg which was directed at a deuterated target within the ISOLDE solenoidal spectrometer. Exploiting the kinematic advantages of this technique allowed most states up to 5 MeV to be resolved, and angular distributions of the reaction cross section to be obtained. The DWBA code DWUCK5 was used to obtain spectroscopic factors for these states. Additionally, some higher-lying excited states were identified, and their possible properties were proposed. Theoretical calculations in this region broadly reproduced the observed behaviour in 29Mg, as well as matching trends from other nuclides in the N=17 isotones. These calculations indicate that the nucleon-nucleon interaction between protons and neutrons, with the tensor interaction as a key component, is driving the evolution of shell structure, with the filling of the πd5/2 orbital of particular importance in this region. Finite geometry effects also play an important role in this evolution as the p orbitals approach the neutron-separation threshold, and the energy spacing between them reduces. The information gained from the nuclear structure will help to continue refining these interactions, and provide a valuable benchmark for nuclear-structure studies around the border of the island of inversion. Similar experiments to study 30Al and 31Mg carried out recently will help to further the understanding of nuclear structure in this exotic region of the nuclear chart.

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